DE2303792C3 - Cable sleeve for connecting two coaxial cable ends - Google Patents

Description

The invention relates to a cable sleeve for connecting two coaxial cable ends with the im Features described in more detail in the preamble of claim 1.

In particular for community antenna systems, namely for TV reception, there is a large one There is a need for reliable connections between coaxial cable ends, these cable ends being the same or may have unequal diameters.

The most important requirements that are made of such connections are that none for the reception of the signal transmitted over the cable interfering reflections at the connection point may occur. The connection point must still be watertight and must be stressed on train can without causing disturbances.

A cable sleeve according to the preamble of claim 1 is known from US Pat. No. 3,350,500 The US-PS 33 50 500 Figure 9 shows a reflection-free connection of two coaxial cable ends. Here's how at a so-called. Coax plug, the inner conductor, which has a relatively large diameter each end of the cable is drilled out on the inside and a plug contact is inserted. The dielectric between Inner and outer conductors are not changed at any point, so that the dielectric is almost at the connection point has exactly the same cross-section as before. Here are some careful assembly work no reflections expected. However, the connection is mechanically quite fragile, because in the Area of the outer conductor these must be widened at the connection point, namely for insertion a sleeve, which is under the outer conductor and over the The dielectric between the inner and outer conductors engages The mechanical strain relief of the connection point this ensures that Kiemmrings have been attached over the sleeve and the outer conductor. Above the connection are two outer butting protective sleeves. True, on this Way a good electrical connection is made, but the mechanical strain relief is for larger ones

ίο Unsuitable forces acting on the socket

From GB-PS 7 43 294 a cable sleeve for connecting two coaxial cable ends is known although it has a mechanical strain relief in the area of the outer conductor of the cable sleeve, however, between

is these outer conductors and inner conductors an air gap shows so that the dielectric is interrupted at this point and thus two reflection points occur, namely one on each coaxial cable end. Such connections are mechanical, albeit mechanical tensile strength for the above-mentioned cable sleeves for cables in communal antenna systems cannot be used. In contrast, the cable sleeve shows an improvement according to US-PS 31 47 057, which, although in the area of the inner conductor, a metal sleeve and a surrounding Dielectric shows where this dielectric has almost the same values as the dielectric between inner and outer conductor of the cable should have, but the connection point is designed in such a way that the Metal sleeve surrounding dielectric on the outside Head of the cable ends protrudes and therefore also on reflections can occur again in these two places. The compound shown in this patent but has a very stable mechanical strain relief in the form of interlocking threads and

Socket parts that protrude over the cable ends. The socket is very large and shows protruding parts Parts, so that there is hardly any possibility of transport

is given to a winding mandrel

Finally, the US-PS 34 17 195 shows a cable sleeve

fe to connect two from a tViiUelleiter and the Isolation of existing cable ends, which in turn does not create a reflection-free connection, because in the area of the Means for mechanical strain relief are provided at the connection point. These consist in that a tube made of metal or plastic with arranged on the end faces, downward annular projections pushed over the insulation and this is pressed on. The protrusions penetrate the pressing process in the insulation of the two cables the one and deform it. On the impression side a reflection point thus occurs at each end of the cable. It can be seen from the drawings of the citation that the surface of the assembled pipe is not plan iii passes over the surface of the cable insulation but protrudes from the isolation. Furthermore the cables according to US-PS 34 17 195 only have a central conductor, so no outer conductor.

The object of the invention was therefore to provide a cable sleeve for connecting two coaxial cable ends to create a robust and anechoic has mechanical strain relief To solve this problem, in the case of a cable sleeve, the said type according to the invention taken measures, as in the characterizing part of the claim 1 described in more detail.

By engaging the half-shells with the annular projections in the solid dielectrics the cable ends a strain relief is created that

can absorb large forces and at the same time has little reflection is.

The invention is explained in more detail below for an exemplary embodiment with reference to the drawings. It shows

F i g. 1 to 3 axial cuts through cable ends in various stages of preparation for attaching the Connection according to the invention,

F i g. 4 shows an axial section through the connection according to the invention,

5 shows a radial section through the cylindrical Connector,

6 shows an axial section through a cup-shaped Connector,

F i g. 7 is a radial view of two cup-shaped connecting pieces, and

F i g. 8 shows an axial section through a completed connection.

In Fig. 1, one end of a coaxial cable is shown in an axial section. The cable is made of a Middle conductor 1 made of solid copper, a solid dielectric 2 made of polyethylene, an outer conductor 3 of copper foil and / or copper braid and built into the outer jacket 4 made of polyethylene At the end of the cable, an equal part of the sheath 4 and the outer conductor 3 is removed, while at 5 the outer sheath 4 is cut radially up to the outer conductor 3. Then part of the dielectric 2 is removed so that after this processing, the center conductor partially protrudes from the dielectric (Fig. 2). Of the Two chips (6 and 7) are now removed from the dielectric previous processing - the uncovering of a part of the center conductor - can be combined (Fig. 3). The slot obtained by removing the chip 6 is used to receive the on the inside of the Shell half 8 outstanding part 9. The reduction in the diameter of the dielectric by the Removal of the chip 7 serves to take up the thickness of the shell half 8, so that, as in FIG. 4 is shown, the Outside diameter at the point of connection with that of the massive dielectric of the cable ends coincides. Then the shell part 4/4 is removed. The outstanding from the solid dielectric Parts of the central conductor 1 are pushed into the connecting piece 10, which is shown in a radial section in F i g. 5 is shown. The connector 10 consists of a metal sleeve 11, which is a slightly smaller one Has diameter than the central conductor and with one or more axially extending slots for Obtained a clamping fit and provided with a covering of insulating material 12. Because by attaching the metal socket 11, the conductor diameter at the point of this connection increases relatively, it is generally necessary to determine the dielectric constant of the material from which the Sheath 12 is made if this material is the same material from which the solid dielectric 2 is made to adapt and, in this case, reduce it. This can be done, for example, by that in the casing 12 a number of channels 13 are made parallel to the axis (see Fig. 5).

Then the shell halves 8 are attached, with the protruding edges 9 in the by the removal of the chip 6 received recesses fall. In Fig. 6th

I ″ is such a shell half 8 in longitudinal section shown. The shell half 8 can be made of the same electrically insulating material as the solid Dielectric 2, e.g. B. polyethylene, be made. Two halves of the shell can be closed together

ι form ⁵ cylinder jacket; the shell halves can also be designed in such a way that three or more shell halves form a closed cylinder jacket. In general, however, it is preferable to limit the number of shell halves, which also limits the number of seams through which moisture can penetrate. In P i g. 7 shows a radial view of two shell halves β. In order to obtain a satisfactory seal against moisture, the contact surfaces 14 can be provided with ribs and slots that fit into one another. As a further measure to prevent the ingress of moisture, a water-repellent compound, e.g. B. polyethylene wax or silicone grease, are attached. Then two copper shells 15 and 16 are pushed over the connection in overlapping electrical contact with the outer conductors 3 and fixed with clamping rings 18. Then a tube made of elastic electrically insulating material 17, for. B. a shrink tube made of polyethylene, which was previously attached to one of the cable ends, pushed over the whole. This tube 17 serves as an outer jacket. In order to obtain a good seal against the ingress of moisture, it is recommended that this tube 17 partially overlaps the jacket 4, as shown in FIG. 8 is shown

A connection of the type shown can be claimed on train without the risk that the electrical connection between the cable ends or the local impedance is changed. One Such a connection can be wound onto and unwound from the reel without risk of damage will. The installation of cable sleeves is generally not necessary with this design according to the invention, sufficient water tightness is obtained.

A compound according to the invention can e.g. B. used to cable ends with a total diameter of 15 mm or more to be joined together.

For this purpose 2 sheets of drawings

Claims (1)

Claim: Cable sleeve for connecting two coaxial cable ends, each consisting of a central conductor and an um this arranged massive dielectric, from an outer conductor resting on this dielectric and from an outer conductor covering the outer conductor Sheath made of insulating material and in which the middle and outer conductors are retained their shape are electrically connected to each other, the connection of the outer conductors by a this adjacent and this overlapping tubular shaped metal piece is carried out, the covering sheaths are deposited in the connection area of the cable, over which in turn a tubular outer protection is applied and in the overlap area of the tubular metal piece with the outer conductor these with each other are connected by clamping, characterized in that the outer conductors (3) are deposited in the connection area and in this area iy a sleeve complementary to their Shells (8) made of insulating material and provided with radially inwardly projecting projections (9) at the ends and with an outer diameter equal to that of the solid dielectrics (2) in the shape of the shells (8) corresponding recesses of the solid dielectrics (2) are inserted and d «d $ the shells (8) are covered by at least two shells (15, 16) made of metal which connect the outer conductors (3) and which support themselves with their ends against the outer jacket (4).